SU1420510A1 - Method of electromagnetic inspection of ferromagnetic materials - Google Patents

Abstract

The invention relates to methods for non-destructive testing of the physical and mechanical properties of ferromagnetic products. The aim of the invention is to improve the accuracy of control of products with a large demagnetization coefficient by taking into account the effect on the result of controlling the shape of the product and reducing nonlinear distortion. The product cyclically remagnetized in a differential pass-through inductive transducer having counter-connected measuring and two-section compensation coils. In order to reduce the non-linear distortion of the excitation current, in the absence of the product, the converter is adjusted in such a way that the difference voltage of the measuring and first section of the compensation cable is zero. Detuning from the shape of the product is achieved by moving the product along the axis of the measuring coil to the minimum value, the first harmonic of the difference signal, and the control is conducted on the highest harmonics (for example, the third) or on the ratio of the highest and first gariniko 1 sludge. S (L S

Description

The invention relates to the control-measurement technique and can be used for non-destructive testing of the physical and mechanical properties of ferromagnetic products,

 The purpose of the invention is to improve the accuracy of controlling the physicomechanical properties of products with a high demagnetization coefficient by taking into account the influence of - NIN its form

: The drawing shows a block diagram of a device that implements a method of electromagnetic control of ferromagnetic products.

The device consists of a generator: 1 alternating current connected to a differential pass-through inductive; 2 transducer 2, a connecting exciter coil 3, a measuring coil 4, and a two-section compensation coil 5 connected in series i, connected in series 6, selective the first harmonic amplifier 7 and the amplitude detector 8 connected to the output of the compensation catugaki 5, the third harmonic amplifier 9 connected in series, the amplitude-phase detector 10, the switch 11 and recorder 12 are connected to the output of the compensation coil 5 and fazovraschetel 13 connected between the second output of the generator 1 and the second input of detector 10, the middle point of the compensation coil 5 is connected to the second input of the switch 6,

The device works as follows

The controlled product 14 is placed in the converter 2. Using the exciter coil 3 of the transducer 2, powered by alternating current of the generator 1, the product 14 is cyclically reversible around the hysteresis loop. The differential voltage of the measuring coil 4 interacting with the field 14 and the compensation coil 5 is adjusted, not interacting with the controlled product 14o. Using a selective amplifier 7, the first harmonic component of the differential voltage is measured, the resulting voltage is detected by 8 and the projector of a measured amplitude of the first harmonic of the register

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torus 12e connected to the output of the detector 8 through the switch 11. Then the monitored product 14 moves along the axis of the measuring coil 4, reaching the minimum amplitude of the first harmonic of the differential voltage as indicated by the recorder 12 "In this position, the product 14 is fixed in the transducer 2o. influence of the shape for products with a large demagnetization factor, since the magnitude of the first harmonic of a difference signal is proportional to the magnetization of the product S and, consequently, its volume

After that, using a selective amplifier 9, a higher harmonic is emitted, for example, a third, the differential voltage of coils 4 and 5. For this, using a phase shifter 13, a reference voltage corresponding to the third harmonic is established at the second input of detector 10, the corresponding 10 harmonic to the registrar 12 by means of the switch 11, the result of the control is determined by the indication of the registrar 12 and by a predetermined correlation dependence.

As an informative control parameter, the ratio of the amplitude of the higher harmonic (proportional to the controlled property of the product) to the amplitude of the first harmonic (proportional to the product volume) can be used, which provides a weakening of the effect of variations in the shape of the product, such as a ball, on the result of the control.

To reduce the effect of nonlinear distortion of the excitation current on the resultant control in the absence of product 14, the amplifier 7 of the first arm is connected to the output of one section of the compensation coil 5 using switch 6 and adjust the converter 2 so that the differential voltage of the measuring coil 4 and this section of the compensated coil as indicated by the recorder. 12 was null by the correct choice of the time constant of the second section of the compensation coil.

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Claims (1)

55 claims Electrocap monitoring method for ferromagnetic products, which consists in cycling peremagni314205 a controlled product in a differential pass-through inductive transducer having a measuring and two-section compensation coil, register the differential The voltage of these coils, characterized in that, in order to increase the accuracy of control of products with a large demagnetization coefficient, | Q, in the absence of a controlled product, preset the conversion ten The detector, so that the differential voltage of the measuring and first section of the compensation coil is zero, moves the product along the axis of the converter to the minimum value of the first harmonic of the differential voltage, measures the high harmonics of the differential voltage measured by this product position -mechanical parameters of products.